Cardiovascular disease is a major cause of mortality worldwide and responsible for one out of three global deaths. A main characteristic of cardiovascular disease is impaired blood flow and formation of blood clots. Platelets are clot-forming cells responsible for the prevention of bleeding. However, in disease conditions they may be overly activated, promoting blood clots and blockage of blood vessels.

Consumption of diets rich in fruits and vegetables decreases mortality from cardiovascular disease through a number of mechanisms, including the prevention of platelet clotting and aggregation. There is some evidence suggesting that platelet aggregation may be modulated through a group of compounds known as flavan-3-ols, which are found in various foods, and especially in cocoa. However, the mechanisms by which those compounds affect platelet function are not yet fully understood. We designed a human study assessing the mechanisms by which flavan-3-ols from cocoa beneficially affect platelet function and the platelet proteome.

Cardiovascular disease (CVD) is a primary cause of premature deaths worldwide, with incidence rates in the United Kingdom, particularly in Scotland, being amongst the highest worldwide. Thus identification of dietary components that most effectively prevent CVD is potentially of wide public health benefit.

Consumption of diets rich in plant-based products protects against the development of CVD. Such effects have been ascribed in part to polyphenols, which are non-nutritive but, potentially bioactive secondary metabolites ubiquitous found in fruits, vegetables, herbs, spices, teas and wines. The beneficial effects of polyphenols on CVD is believed to be mediated, at least in part, though improving platelet function. At least 10 human intervention studies found a consistent and robust beneficial effect of cocoa products on platelet function, but unfortunately all of these studies used only one or two methods to assess platelet function, therefore only getting limited insights into the complex physiological behavior of platelets. In addition, none of these studies assessed potential mechanisms by which flavan-3-ols may inhibit platelet function. Schramm et al. have shown that consumption of chocolate rich in flavan-3-ols and their oligomers (procyanidins) lead to increased production of prostacyclin, a strong platelet inhibitor. This finding has also been observed when aortic endothelial cells are treated with procyanidins in vitro. Thus the stimulation of prostacyclin production in endothelial cells may reflect one pathway by which flavan-3-ols indirectly inhibit platelet activation. Many other potential mechanisms are discussed in the literature but so far the evidence for such mechanisms is limited or non-existing.

In this study we assess effects of consumption of chocolate enriched in flavan-3-ols on platelet function by measuring not only platelet aggregation, but also in vitro coagulation and platelet activation in healthy humans. In addition, we examine the effects of consumption of flavan-3-ols on the regulation of the platelet proteome to elucidate pathways by which these bioactive cocoa compounds affect platelet function.

HYPOTHESIS

Acute consumption of a moderate amount of dark chocolate enriched in flavan-3-ols results in decreased platelet activation and aggregation by decreasing the levels of thromboxane A2 produced by endothelial cells.

OBJECTIVES

The main objective of the proposed study is to determine whether consumption of 60 g dark chocolate enriched in flavan-3-ols results in decreased platelet activation and aggregation by decreasing levels of thromboxane A2, as well as assessing what other mechanisms could be involved.

whether and how acute intake of 60 g dark chocolate enriched in flavan-3-ols, as compared with standard dark chocolate and white chocolate, affects the platelet proteome, and thereby potential new biomarkers of platelet function, as well as protein levels of anti-oxidant enzymes;

identities and concentrations of flavan-3-ols and their metabolites in plasma and/ or urine 2 and 6 h after acute intake of 60 g dark chocolate enriched in flavan-3-ols, as compared with standard dark chocolate and white chocolate.

Eligibility

Ages Eligible for Study:

18 Years to 70 Years

Genders Eligible for Study:

Both

Accepts Healthy Volunteers:

Yes

Criteria

Inclusion Criteria:

Healthy male and/or female volunteers, aged between 18 and 70 years

Exclusion Criteria:

Subjects are excluded if:

they are taking aspirin or aspirin-containing drugs, other anti-inflammatory drugs, or any drugs or herbal medicines known to alter platelet function or the haemostatic system in general (without a minimum washout period of one month)

they are taking fish oils or evening primrose oil, or fat soluble vitamin supplements within the last 4 weeks

they are taking any medicine known to affect lipid and/or glucose metabolism

they are suffering from alcohol or any other substance abuse or are having eating disorders

they are usually consuming a vegetarian diet

they have a BMI below 18 or above 35 kg/ sqm

they are undertaking more than 6 hours of vigorous exercise per week

they are having an abnormal menstrual cycle

they are pregnant

they suffer from an allergy to cocoa or any of the ingredients contained within either of the chocolate bars

they have been giving a pint of blood for transfusion purposes within the last month

they have a low platelet count (< 170 x 10E09/ L)

they have unsuitable veins for blood sampling and/ or cannulation

their hematocrit is below 40 % for males and 35 % for females

their haemoglobin is below 130 g/ L for males and 115 g/ L for females

they are not able to travel on their own to the Rowett Institute of Nutrition and Health, Aberdeen for each of the interventions

Contacts and Locations

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Please refer to this study by its ClinicalTrials.gov identifier: NCT01099150